Abstract
An efficient mechanical product design process implies the evaluation of many alternatives in a short time and rapid product changes on the basis of emerging needs. Product cost is one of the main factors in order to choose the most promising solution. Hence its accurate estimation in the design phases is fundamental. The main problem is the vast amount of knowledge that has to be managed in order to make robust evaluations. Features based 3D CAD models implicitly contain part of needed information. But such information has to be elaborated by adopting suitable rules based on manufacturing knowledge. In this context, the paper presents an approach and the related knowledge-based system able to automatically make reliable cost estimation starting from the 3D CAD model. The approach is based on the manufacturing knowledge formalization, on the geometrical and non-geometrical feature automatic recognition and, finally, on the mapping between manufacturing operations and modeling features. In order to validate the system performance case studies are reported.
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References
Ehrlenspiel K. Design for cost. New York: Springer Verlag; 1985.
Hundal M. Designing to cost. In: Parsaei H, Sullivan W, editors. Concurrent engineering. London: Chapman&Hall; 1993. p. 329–51.
Rush C, Roy R. Analysis of cost estimating processes used within a concurrent engineering environment throughout a product life cycle. In: Proceedings of Concurrent Engineering Conference; 2000.
Duverlie P, Castelain J. Cost estimation during design step: parametric method versus case based reasoning method. Int J Adv Manuf Technol. 1999;15:895–906.
Niazi A, Dai JS, Balabani S, Seneviratne L. Product cost estimation: technique classification and methodology review. J Manuf Sci Eng. 2006;128:563–75.
Cheung WM, Newnes LB, Mileham AR, Marsh R, Lanham JD. Cost estimation in product development: academic research and commercial systems evaluation. In: Proceedings of DET2007, 19–21 September 2007, University of Bath.
Weustink IF, Ten Brinke E, Streppel AH, Kals HJJ. A generic framework for cost estimation and cost control in product design. J Mater Process Technol. 2000;103:141–8.
Layer A, Haasis S, Van Houten F. Feature-based, design-concurrent cost calculations using case-based reasoning. In: Proceedings of DECT/DFM’01, ASME 2001 design engineering technical conference, Pittsburgh, 9–12 September 2001, p. 163–72.
Ten Brinke E. Costing support and cost control in manufacturing: a cost estimation tool applied in the sheet metal domain. Ph.d Thesis, University of Twente; 2002.
Leibl P. Cost calculation with a feature-based CAD system using modules for calculation, comparison and forecast. J Eng Des. 1999;10:93–102.
Kiritsis D, Xirouchakis P. Deviplan: a bid preparation system for mechanical SME. In: Proceedings of DECT/CIE’00, ASME 2000, design engineering technical conference, Baltimore, 10–13 September 2000, p. 1–12.
Watson P, Curran R, Murphy A, Cowan S. Cost estimation of machined parts within an aerospace supply chain. Concurr Eng. 2006;14:17–26.
Germani M, Otto HE, Mandorli F. Product families: a cost estimation tool to support the configuration of solution phase. In: Proceedings of ICED 2003, Stockholm, 19–21 August 2003.
Shehab A, Abdalla E. An intelligent knowledge-based system for product cost modelling. J Adv Manuf Technol. 2002;19:49–65.
Mauchand M, Siadat A, Bernard A, Perry N. Proposal for tool-based method of product cost estimation during conceptual design. J Eng Des. 2008;19:159–72.
Castagne S, Curran R, Rothwell A, Price M, Benard E, Raghunathan S. A generic tool for cost estimating in aircraft design. Res Eng Des. 2008;18:149–62.
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Cicconi, P., Germani, M., Mandolini, M. (2010). How to Support Mechanical Product Cost Estimation in the Embodiment Design Phase. In: Pokojski, J., Fukuda, S., Salwiński, J. (eds) New World Situation: New Directions in Concurrent Engineering. Advanced Concurrent Engineering. Springer, London. https://doi.org/10.1007/978-0-85729-024-3_45
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DOI: https://doi.org/10.1007/978-0-85729-024-3_45
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